Integrable $\lambda$-deformations of the Euclidean black string
Abstract
Non-trivial outer algebra automorphisms may be utilized in -deformations of (gauged) WZW models thus providing an efficient way to construct new integrable models. We provide two such integrable deformations of the exact coset CFT with a vector and axial residual gauge. Besides the integer level and the deformation parameter , these models are characterized by the embedding parameter of the factor. We show that an axial-vector T-duality persists along the deformations and, therefore, the models are canonically equivalent. We demonstrate integrability even though the space is non-symmetric and compute the -flow equations for the parameters and . Our example provides an integrable deformation of the gravitational solution representing a Euclidean three-dimensional black string.
Cite
@article{arxiv.2012.08527,
title = {Integrable $\lambda$-deformations of the Euclidean black string},
author = {Sibylle Driezen and Konstantinos Sfetsos},
journal= {arXiv preprint arXiv:2012.08527},
year = {2021}
}
Comments
24 pages, 2 figures. v2: minor corrections and clarifications added, version to appear in NPB